TWI228702B - Display apparatus, display control method and recording medium - Google Patents

Abstract

A display apparatus is provided, which comprises a display device including a display screen for displaying characters and/or graphics, in which each of the characters and/or graphics contains a basic portion and a neighboring portion arranged in the vicinity of the basic portion, and a control section for controlling the display device. The control section sets a luminance level of the basic portion and a luminance level of the neighboring portion in accordance with the intensity of light for irradiating the display screen. The control section controls the display device so that the character and/or graphics are displayed on the display screen using the set luminance level of the basic portion and the set luminance level of the neighboring portion.

Description

1228702 On the other hand, an 'open rectangle' indicates a sub-pixel corresponding to the background of the character "/". The sub-pixel color element level corresponding to the background of the character "/" is set to the illumination level "255". FIG. 13 is a diagram of a character "/" (slash) displayed by a character fan display π device as disclosed in Japanese Open Publication No. 2000-1〇7252, in which a basic part of a color π 7L element The degree is set to a predetermined illuminance degree (illuminance degree 0), and the privacy of color elements adjacent to P 6 is set to an illuminance degree different from the basic part illuminance degree ("0"). In Fig. 13, "the adjacent part corresponding to the basic part of the character" / "on each side of each sub-pixel, according to a predetermined correction pattern, starting from the basic part and starting from the nearest part" is sequentially set to " Illuminance level 73 "," illuminance level 182 ", and" illuminance level 219 ". It should also be noted that "the assignment of the degree of illuminance to the neighboring subpixel color φ element privacy according to the correction pattern" will be hereinafter referred to as "providing a correction pattern". The purpose of providing the correction pattern includes: suppressing color signal noise; recognizing characters or graphics as black & determined by the human eye; and trimming the outer dimensions of the characters to a desired size. Therefore, according to the "Japanese Open Publication No. 2001_100725 π device", by providing a correction pattern to correspond to the basic part of the character _ sub-image sub-pixel, the character can be displayed in high definition. In addition, in Japan, the character display center of No. 0ΠΛ1 Α 罘 衣 罘 2001-100725, which is open to the public in Japan, is centered according to the pointer frame M &-1 I sub 7L frame information or the frame of the pointer frame. Data, to order the orphan & t, + should go to the basic sub-pixel. + The outer frame information includes the 7L type character code that recognizes t, the number of strokes (stroke outline of the character) that make up each character 86799 1228702, and each day. The message includes a number of outline points for identifying a plurality of strokes-strokes, as well as constituting each-stroke 'stone horse, constituting each (the address in the auxiliary memory element, which stores, ~, + signs). f Λ The outline point coordinates of the bearded, owed, and Cheng Zhangdan) ^ In this information, you can obtain the outline point coordinates that make up the book & In this case, each stroke has a shape, L ^ ^ IV,, spring, line, arc, and outline shape of the character. The compound office is closed, so it can display the contour lines that represent the outline shape of the characters. JJ uses the coordinates of the contour points to capitalize on the straight, spring, curve, arc, and the above * people are based on people's towers, and '0 temples are added. Intended. The contour line is formed in proportion to the size of the radiating sub-frame. The second fixed ratio changes the coordinate of the contour point to the coordinate system of the display element. Based on the area enclosed by the outline and the sub-pixel area, for example, 'the area is greater than or equal to the predetermined area or, it is determined whether the sub-pixel corresponds to the basic part representing the core of the character. The skeleton data includes a character code identifying a character type, the number of strokes constituting each character, and stroke information for each day. Stroke information includes the number of strokes that identify individual strokes, the number of points that make up each stroke, the line shape (curve, straight line, or similar line) of each stroke, the point markers that make up each pen, and so on. In this case, each stroke does not have a thickness, but has a certain linear form corresponding to the basic part of the character. If the line shape of the stroke is a straight line, the day can be simulated by a straight line passing through the coordinate data of a plurality of points constituting the stroke. If the linear system curve of the stroke is used, the stroke can be simulated by using the curve of the coordinate data of a plurality of points constituting the day. 86799 1228702 The point coordinate system bp system, i A which constitutes the parent-child painting is determined proportionally according to the size of the input characters, and converted into a display, ΛΛ ^ τ 忭 旳 忭 旳 忭 旳 system. The sub-pixels appearing in each ratio are determined by f Α, and 疋 is the sub-pixel corresponding to the basic part representing the core (moon-wood shape) of the character. Japanese Open Publication No. 20002-49366 Dream Reveal-α ^ blame 7 ^ A technology that uses bitmap data to make the element 70 or the basic part of the image ^ /, and is related to the pixel house. This technique will be described in more detail below. The bitmap data contains a plurality of bits in a plurality of rows. Read the data in a column. Bitmap data refers to binary data that contains bits. The female bits that make up the bitmap data have a value of "1 Rong" Sheng "" $ 〇 ". Bits with a value of "1" are not listed as black, while bits with a value of "0" indicate white. It should be determined whether each bit constituting the bitmap data has a value of "丨". The following will discuss the Γ1 "/". "Bit values of two adjacent bit patterns: the related bits are related to the pixels that display the curtain. According to the arrangement pattern corresponding to the adjacent bits, the sub-pixels corresponding to the basic part are determined by the sub-pixels included in the pixels corresponding to the relevant bits. A "display device" that controls the brightness of display elements based on the surrounding environment is disclosed in Japanese Open Publication No. 6-2 14508. In this "display device", a sensor is provided near the "display element" to sense the surrounding partyness. By adjusting the brightness and contrast of the entire display element based on the sensor's peripheral brightness, the screen display can be seen more clearly. "At the time, the traditional" U-shaped display device "disclosed in Japanese Open Publication No. 20001_00725 was used when the brightness was uniform (for example, the device was used for 86799 1228702 word 7L without color letters as LCD display elements for notebook PCs), noise issues. It can be used in mobile phones with low brightness. However, it is generally considered that the above-mentioned "character display device is consistent." When the "character display device" is used as, for example, a crystal display element, the brightness is not uniform. In a hard crystal display element, when the surrounding environment is very dark, ~ light 'so that the display * screen is illuminated by the backlight, so the display is in the transmission mode == line. To reduce power consumption when the surrounding environment is bright? Backlight. In this case, the Zhou Yuan light system that enters the display curtain: Reflects the reflection of Shao Fen, so that the display is performed in the reflection mode. Therefore, it can be seen that the display arrangement is controlled by switching the two modes. In this arrangement, the characteristics of the components are changed according to the on / off state of the backlight. Well, if you want to pre-calibrate the correction picture two in order to apply the backlight, it will turn off the backlight #. This correction pattern will produce obvious color: noise. Moreover, when the backlight is turned off, the thickness of the characters on the dark display screen feels larger than when the backlight is turned on. "If the correction is scheduled in order to apply the backlight off, the correction pattern will produce a noticeable color when the backlight is turned on. \ Miscellaneous In addition, when the backlight is on, the thickness of the elements on the bright display screen ' The perception is smaller than when the backlight is turned off. Recently, mobile phones can gradually adjust the brightness of the backlight in a hierarchical manner (like this, L instead of simply switching the backlight on / off. In this case, depending on the degree, also 86799 -10- 1228702 changes in the color signal noise and / or the appearance thickness of characters will occur. The above problems occur not only on the backlight, but also on front light or side light. A display device using front light has the following structure and functions The front light is provided directly from the front of the display screen. When the surrounding environment is bright, the front light is turned off, so that the surrounding light entering the display screen is reflected by the reflection part and the display is performed in the reflection mode. When the surrounding When the environment is dark 'the front light is turned off and the display screen is illuminated by the front light, so that the display is performed in the transmission mode. In this case The above problems also occur. The display device using side light has the following structures and functions. The light guide plate is provided directly from the front or back of the display screen. The side light is provided by the end of the light guide plate, so the display screen is illuminated by the light guide plate. When the surrounding When the environment is bright, the side light is turned off, so that the surrounding light entering the display screen is reflected by the reflective part and the display is performed in the reflection mode. When the surrounding environment is dark, the side light is turned on and the display screen is turned from the side The light is irradiated so that the display is performed in the transmission mode. In this case, the above-mentioned problem also occurs. In the "display device" disclosed in Japanese Open Publication No. 2145008, the brightness and contrast of the obscure parts It is adjusted according to the brightness of the surrounding environment. Therefore, it is easy to see the image and video on the entire display screen. However, it is not necessarily easy to display characters on the display screen. If such a display device, its brightness and contrast are A description using the "character display device" disclosed in Japanese Open Publication No. 2001-1007725 The control method is adjusted through the display element, so it will be difficult to suppress the change of the color signal noise and / or the thickness of the appearance of the characters. The correction pattern is 86799 -11-1228702. The word display element is opened according to the week _... "In addition, because the apparent Gu Qian < brother degree is controlled, the sensor must be lifted around the head of the head. [Abstract] According to the present invention The view elements, which are not included in the device, include: a display A ^. 丨 inside 5-the basic part and an adjacent part are arranged near the basic part; .4, ^, and-control section , Used to control the display element ::: section according to the intensity of the light illuminating the display screen, set the basic part, the degree of privacy, and the degree of illumination of the nearby Shao Fen. The control section uses the settings of the basic part. 1 ifev, &, a —: Degree of privacy and the set illumination level of the neighboring Shao Fen to control the display elements so that characters and / or graphics are displayed on the display screen. In a specific embodiment of the present invention, the control section displays the screen and the light spring degree according to the irradiation; it is at least one of the basic illuminance and the adjacent illuminance. In a specific embodiment of the present invention, the control section sets the illuminance of the adjacent portion so that the illuminance of the adjacent portion changes stepwise from near to far from the basic portion. In a specific embodiment of the present invention, the control section is based on the illuminance of a plurality of color elements, and sets the illuminance of a basic portion and the illuminance of an adjacent portion. In a specific embodiment of the present invention, the display screen includes a plurality of pixels; each of the plurality of pixels includes a plurality of sub-pixels; and each of the plurality of sub-pixels is related to one of the plurality of color elements. -12- 86799 1228702 = In the specific embodiment of the invention, the basic part and the crotch are provided with a plurality of sub-pixels. ^ Display Fluorescent: The display device also includes light, ~, zone &. The control section sets the illuminance of the basic part of the illuminance range according to the light intensity from the illumination section to the display-brightness. In the specific embodiment of Mao Yue, the control section is turned on or off according to the light section. Set the illuminance of the basic part and the degree of adjacent parts. Where = In the specific embodiment of the present invention, the control section sets the illumination degree of the basic part and the illumination degree of the adjacent part according to the illumination degree indicating the intensity of the light from the illumination area to the 7F screen. In a specific embodiment of the present invention, the display device further includes an illumination section illuminated with light and the π screen. The display element includes a display medium and a reflective section. The lighting section is located behind the display media. The control section switches between the transmission mode and the spear reflection mode. The transmission mode is: when the lighting section is on, the light emitted from the lighting section is transmitted through the display medium, and the reflection mode is · when the lighting section is off The light incident from the front of the display medium and transmitted through the head medium is reflected by the reflection section. The control section sets the illuminance of the basic part and the illuminance of the neighboring part according to the transmission mode or the reflection mode. In a specific embodiment of the present invention, the display device further includes a memory section 'for storing a plurality of correction pattern tables, the tables indicating the illuminance & degree of the basic part and the illuminance degree of the neighboring parts. The control section selects one of a plurality of correction pattern tables according to the light intensity of the illuminated 86799 -13- 1228702 screen, and sets the illuminance of the basic part and the illuminance of the adjacent part according to the selected righting pattern table. . In a specific embodiment of the invention, the plurality of correction pattern tables depend on the light intensity of the illuminated display screen. In a specific embodiment of the present invention, the display device further includes an input area # ′ 'for insufficient light intensity from the illumination section. In a specific embodiment of the present invention, the display device further includes an input section for inputting information related to a viewer viewing the display element. In a specific embodiment of the present invention, the viewer-related information includes at least one of information related to the age of the viewer, information related to the eye condition of the viewer, and information related to the preference of the viewer. According to another aspect of the present invention, a display control method is provided for displaying elements and / or graphics on a display screen, wherein each character and / or figure includes a basic part and Adjacent sections. The method includes the following steps: according to the light intensity of the illuminated display screen, setting the basic illuminance and the adjacent illuminance; and using the basic illuminance and the adjacent illuminance on the display Characters and / or graphics appear on the screen. In a specific embodiment of the present invention, the setting step includes correcting one of the illuminance of at least a basic portion and the illuminance of a neighboring portion according to the light intensity of the illuminated display screen. In a specific embodiment of the present invention, the setting step includes setting the degree of knowledge and degree of the neighboring part, so that the degree of illumination of the neighboring part is changed from the basic part to 86799 -14-1228702 in a stepwise manner from near to far. . The steps include setting the illuminance of a plurality of color components and the proximity. In the specific embodiment of the present invention, the illuminance of the basic part is set based on the illuminance of the set step. In a specific embodiment of the present invention, the display screen includes a plurality of pixels; the mother-plurality of pixels includes a plurality of sub-pixels; and each of the plurality of sub-pixels is related to one of the plurality of color elements. " In a specific embodiment of the present invention, the display control method further includes the step of setting the intensity of the light from the light to the display screen. Set the step% of the illuminance level, including setting the light intensity from the lighting section to the display screen, the intensity of the basic part of the intensity Chinese foot, and the intensity of the adjacent part. According to another aspect of the present invention, a program for displaying characters and / or graphics on a display screen is provided, wherein each character and / or graphic includes a basic part and is arranged near the basic part. The program instructs the computer to perform the following steps: set the illuminance of the basic #part and the illuminance of the adjacent part according to the light intensity of the display screen; and use the basic part & sculpt illuminance and proximity According to another aspect of the present invention, there is provided a recording medium, a program for storing characters and / or graphics on the display screen, and setting characters and / or graphics on the display screen. Each character and / or graphic contains a basic part and an adjacent part arranged near the basic part. The program instructs the computer to perform the following steps: set the illumination level of the basic part and The degree of illumination of the adjacent part; with the degree of the basic part 86799 1228702 and the degree of the prostitute on the display screen, Cheng Zhonggong honours the child and / or the figure. According to the other aspect of the present invention, face 1 is used for a display device, including a 7C piece with one heart, including a display screen for each of the screens, including each of the screens, screens, screens, and / or graphics. , Within the macro screen and the arrangement of figures and / or graphics ^ Gan ^ 丨. A basic Shaofen and an adjacent part are listed near the basic Shaofen; and a control section for controlling the display of 7L pieces. Control section 赧 摅-Dresser, based on the information related to the viewer of the element, set the illuminance of the basic shaocheng Cheng Zhan I and the illuminance of the neighboring shaofen. The control section publishes the display elements with the basic part settings __, Wang degree, and the adjacent illuminance settings to make the characters and / 久 / A graphics head π on the display screen. t In a specific embodiment of the present invention, the control section corrects at least one of the illuminance of the basic portion and the illuminance of the adjacent portion according to the viewer's relevant 'Beixun'. In a specific embodiment of the present invention, the viewer-related information includes at least one of information related to the age of the viewer, information related to the condition of the eyes of the viewer, and information related to the preference of the viewer. In the specific embodiment of the present invention, the control section sets the illuminance of the adjacent portion so that the illuminance of the adjacent portion changes stepwise from near to far from the basic portion. In a specific embodiment of the present invention, the control section is based on the illuminance of a plurality of color elements, and sets the illuminance of a basic portion and the illuminance of an adjacent portion. In a specific embodiment of the present invention, the display screen includes a plurality of pixels; each of the plurality of pixels includes a plurality of sub-pixels; and each of the plurality of sub-images -16- 86799 1228702 is related to one of the plurality of color elements. In the specific embodiment of Mao Yue, a plurality of sub-pixels are assigned in the basic Shao Fen and the neighboring parts. &Amp; In a specific embodiment of the present invention, the 'display device further includes a memory section for storing a plurality of correction pattern tables indicating the degree of illumination of the basic portion and the degree of illumination of the adjacent portion. The control section selects one of a plurality of correction pattern tables according to the viewer's relevant information, and according to the selected correction pattern 矣, ·,, sighs the illuminance of the basic part and the illuminance range of the neighboring part are within In a specific embodiment of the present invention, an input section of display device related information is displayed. Two ~ Komben I. Another point of view, providing a display control method for distorting and / or graphics on a display screen, wherein each character and / or figure is shown in a basic part and arranged in the basic part Nearby neighborhood. The party ^ ::: Column steps ... According to the information related to the viewer of the display screen, set the illuminance level of / copy and the illuminance level of the adjacent part, and the degree of shame and the adjacent part using the base ^ Sets the illumination level of the characters and / or characters and / or graphics on the screen. In the following description: In the embodiment, the setting step includes according to the degree of the viewer ’s degree. Among them: the degree of illumination of at least the basic part and the neighboring part of the photo. In a specific embodiment of the invention, the viewer related information Include at least one of information about the viewer: age, information about the viewer ’s eyesight, and information about viewer preferences. 799 86799 -17- 1228702 In the specific implementation of the present invention, the setting step includes setting the illuminance level of the neighboring part so that the illuminance level of the neighboring part changes stepwise from near to far from the basic part. In the specific embodiment of the present invention, the setting step includes setting the illuminance of the basic part and the illuminance of the adjacent part based on the illuminance of the plurality of color elements. In a specific embodiment of the present invention, the display screen includes a plurality of pixels; each of the plurality of pixels includes a plurality of sub-pixels; and each of the plurality of sub-pixels is related to one of the plurality of color elements. In a specific embodiment of the present invention, the display control method further includes a step of inputting information related to the viewer. According to another aspect of the present invention, there is provided a program for displaying characters and / or graphics on a display screen, wherein each character and / or graphics contains a basic component and _ Part. This program instructs the computer to perform the following steps: set the illumination level of the basic part and the illumination level of the neighboring part according to the resources related to the display of the curtain viewer; and Illumination level, displaying characters and / or graphics on the display screen. According to another aspect of this Maoming, a recording medium is provided, which stores a program for displaying the characters Kefine / —, solid / y, and / or graphics on a display screen, wherein each character and / or graphics contains a basic part and Adjacent to the basic part. The process instructs the computer to perform the steps: according to the display screen viewers: Λ 3 and the basic illumination and the adjacent illumination; and the basic illumination and the adjacent illumination are set. The set illumination is 86799 -18-1228702, and characters and / or graphics are displayed on the display screen. The function of the present invention will be explained as follows. According to the present invention, the illuminance of the basic part and the adjacent part of the character and / or figure can be set according to the intensity of light illuminating the display screen. The intensity of the light illuminating the display screen changes according to the on / off state of the illuminated section. The intensity of the light illuminating the display screen also changes with the degree of exposure of the illuminated section. For example, 'changes in characteristics of the display element caused by the on / off switching of the lighting section (for example, backlight, front light or side light), through the correction pattern of the on state of the general lighting section and the applicable lighting Switching between the two patterns in the closed state of the segment can suppress the color signal noise, and can suppress the appearance thickness of the characters and / or graphics lines. Degrees). Thereby, it is possible to suppress noise of color signals and suppress changes in the appearance thickness of words: and / or graphic lines.

The setting of the degree of light exposure. Degree and Illumination of Adjacent Sections When the light level of a lighting section (for example, backlight, front light, or side light) is changed in a stepwise manner, the correction pattern is also set according to the light level of the lighting section (brightness information). Photographs of basic parts of characters and / or graphics ^ Privateness is based on the viewer of the display element 86799 -19 > 1228702 The degree of illumination can be based on the age of the viewer or the eyes of the viewer (for example, whether there is a cataract), Or the viewer ’s preference (for example, the characters and / or graphics that the viewer likes to be displayed in thick lines or black for easy identification), or a combination of the above conditions, and input through the input section. Memory to store correction patterns can be provided Body section. A plurality of tables for correcting the pattern according to the light intensity indication of the illuminated display screen have been stored in the memory fa section in advance. The table is selected according to the light intensity of the illuminated display screen. Selecting the table in this way can be easy Change the correction pattern. The provided correction pattern is used for the display screen, the light of the illuminated section (for example, backlight, front light or side light) When the intensity (brightness) is the maximum. Another correction pattern is provided for the case where the light intensity is the smallest. As for the case where the light intensity is neither the maximum nor the minimum, the applicable correction pattern can be corrected according to the above two The pattern is calculated. In this case, the memory section only stores the correction pattern for the maximum light intensity (brightness) and the minimum light intensity. Therefore, the correction pattern can be switched according to the light intensity that illuminates the display screen: Therefore, it is not traditional Technology, the present invention does not need to provide a sensor that can sense the surrounding brightness. The illuminance of the basic and adjacent parts of characters and / or graphics is set based on information related to the viewer of the display element. Viewing with the display element Information about the viewer includes, for example, the year of the viewer_viewer's eyes are clear_such as' whether there is cataracts', or the viewer's preferences (eg 'the viewer likes characters displayed in thick lines or black and / or Graphics' for easy identification), or a combination of the above. This type of information can also be entered via the input fields 86799 -20-1228702. The illuminance can be set based on this information. A plurality of tables indicating correction patterns according to information about the viewer of the BJ_TJT 7L piece are provided in the memory section in advance. #Select and refer to the table based on the information related to the viewer of the display element, you can easily switch the correction pattern. The achievable advantages of the invention described at Λ here include: providing a heart device and a display control method, such as "color and color, and / or characters and / or graphics, Changes in the appearance of the thread can be suppressed, and characters and / or graphics can be displayed in high definition; a program that executes a display control method on a computer; and a recording medium that stores the program. As long as a person familiar with the technology reads and understands the detailed description with reference to the accompanying drawings, these and other advantages of the present invention will be understood. [Embodiment] Next, the present invention will be described by illustrative examples and with reference to the attached drawings. To explain. Fig. 1A is a block diagram showing a main part of the structure of a display device according to a specific embodiment of the present invention. The characters and / or graphics displayed by the display device are composed of a basic part corresponding to the character core ~ (central skeleton) and an adjacent part near the basic part. In FIG. 1A, the display device 100 includes a display element, which can be displayed in color, an input element 20 through which display information is input into the display device 100, and an auxiliary memory element 3, which can be stored. Control programs and data, 86799 -21-1228702 control section 40 for controlling the display element 10, and a display element irradiation section 50 for illuminating the display screen of the display element 10 with light. The π display element 10 may display one or more characters and / or graphics. The control section 40 controls the display element 10 so that various kinds of information input through the input element π are displayed according to the control program and data stored in the auxiliary memory element 30. Information indicating winter yuan (including bluffs) and / or graphics, or information related to the display element ⑺ viewers can be input to the display device 100 through the input element 20. The display device 100 can be used as, for example, a personal computer or a document The processor display device, display device, and display device 100 can be used as a desktop or laptop display device or other types of display devices. The jaw π device 100 can be incorporated into any information device, such as an electronic device. For example, the display device 100 can be used for mobile information devices (for example, personal digital assistants, etc.), mobile phones (for example, (personal portable telephone system), etc.) and communication devices (for example, ordinary telephones, fax machines, etc.). Information displayed on the display element 10, such as characters and graphics, is input through the input element 20. The shaft-entering element 20 is used to input information indicating characters and figures displayed on the display element. Information pack I for characters and graphics: for example, identification cards for identifying characters and graphics, and indicating the size of characters or graphics. Therefore, the input element by which the identification code and the size of the character or figure can be input can be used as the input element 20. A good example of the input element 20 includes a keyboard, a mouse, a pen-type input element of 86799-22-2202, and so on. When the display device 100 is a display device of a mobile phone, a number identification code specifying a telephone number or a microphone for inputting sound can be used as the input element 20 to input a character code and a character size. When the characters or graphics displayed on the display element 10 all have a single fixed size ', the input of the size can be omitted. In addition, when the display device 100 is used as a display section of an information device having a communication line connection section connected to a communication line, such as the Internet, it is included in an e-mail received through the communication line. The message can be displayed on the display element 10. In this case, the communication line connection section can be used as the input element 20. The auxiliary memory element 30 stores: a character / graphic display program 3 丨 as a control program, which describes a procedure for displaying characters and / or graphics on the display screen of the display element 10; and for performing a character / graphic display Information required for program 31 32. As the auxiliary memory element 30, any readable recording medium can be used to store the character / graphic display program 31 and data 32, including, for example, hard disk, CD-ROM, MOD, MD, DVD, 1C card, optical card, etc. . The auxiliary memory element 30 is used as a memory section to store a plurality of correction pattern tables indicating the illuminance levels of the basic and adjacent portions. The character / graphic display program 31 performs the following steps: setting a predetermined value according to a change in the characteristics of the display element 10 due to a change in irradiation conditions (such as the on / off state of the display element irradiation section 50, or a change in the irradiation level) Is the degree of the color element of the sub-pixel corresponding to the basic part of the character or figure; setting the predetermined value to the degree of the individual color element of the adjacent part of the sub-pixel; and displaying the character or figure on the display screen. The color element range of the sub-pixels in the adjacent part is 86799 -23- 1228702 degrees: according to the distance from the basic part in the horizontal and / or vertical direction, it can be set to a predetermined degree of color elements from the sub-pixels of the basic part Begins the value of the main step change. The character / graphic display program 31 may include the steps of setting the degree of the color element of the basic part and the degree of the color element of the sub-pixels in the adjacent part according to the viewer-related information input by the user or the viewer through the input element 20. Viewer-related information kits 歹 Age of the viewer or status of the viewer's eyes (for example, 'is there a cataract) or viewer preferences (for example, 砚 characters and / or graphics that the viewer likes to be displayed in bold lines) For easy identification). The data 32 includes character / graphic data 32a defining a character and / or a graphic shape, and a correction pattern table (see FIG. 3) described in detail below. The sub-picture / graphics data 32a includes 'e.g., bitmap data (basic part data)' meaning a basic part of characters and / or graphics in a sub-pixel. Ying / Wang Si 'In the above description, the character / graphic display program 31 and the data M are stored in the auxiliary memory element 30 (for example, a recording medium). However, the present invention is not limited to this. For example, the 'character / graphic display program 31' and the data are stored in a ROM called a ROM (not shown). Examples of remuneration include, for example, photomask ROM, EMPROM, flash ROM, and so on. When the character / graphic display _ style data 32 is stored in ROM, by changing the surface, you can easily execute a wide range of programs and data. This type of configuration is applied to a case where the display device 1G is a display area 4 of a mobile terminal or a telephone, for example. The storage medium for storing characters / graphic display programs 3 1 and data 3 2 can be 86799 -24-1228702 storage medium for storing programs and data, such as memory, semiconductor memory or the like, having a disc or card. shape. ^ The recording medium storing the character / graphic display program 31 and data 32 may be a communication medium for transmitting programs and data over a communication network, that is, ‘it transmits programs and data. When the display device 100 is used in combination with an electronic information device, the electronic information device includes a communication line connection section connected to a communication line such as the Internet, at least-part of the character / graphic display program 31 and The material 32 can be downloaded via a communication line. In this case, the loader required for download can be provided by ROM (not shown). On the other hand, such programs can be installed from the auxiliary memory element 30 into the main memory 42 of the control section 40. The control section 40 includes a CPU (Central Processing Unit) 41 and a main memory 42. The control section 40 determines the degree of the sub-pixel color element included in the display screen of the display element 10 according to the character / graphic display program 31 and the data 32 ', and controls the display element 10 to display characters on the display screen. And / or graphics. Specifically, the control section 40 individually controls the plurality of color element levels of the plurality of sub-pixels arranged on the display screen to display characters representing the characters input from the input element 20 on the display element 10 and / Or graphic information. The CPU 4 "empties and monitors the display device 100 and executes various control programs, such as the character / graphic display program 31 stored in the auxiliary memory element 30, and the like. The CPU 41 determines the basic parts of the characters or graphics based on the light intensity relative to the display screen or the viewer-related information based on the character / graphic display program 31 or the data 32 stored in Wang Yiyi 42. Degrees of color elements in adjacent parts to produce character or graphic patterns. The birth mode 86799 -25- 1228702 is temporarily stored in the main memory 42 and is then input as display data. The character or graphics mode is output to the display element 10, which is controlled by the CPU 41. w The main memory 42 is a working memory, which temporarily stores the data input through the input element, the data displayed on the display screen of the display element 10, and the character / graphic program 31 and the character / graphic program to be executed_ data. The main memory 42 can be accessed by the CPu 41 at high speed. The display element irradiation section 50 illuminates the display screen of the display element 10 with light. The display element irradiation section 50 may be, for example, a backlight, a front light, a side light, or the like. The light intensity (brightness) of the display element irradiating section 50 can be input by the operation of the input element 20 and controlled in a stepwise or sequential manner. The display element irradiation section 5G can also be controlled as follows: When the display device ⑽ is switched on or data is input to the input element 20, the 'display element irradiation section will automatically turn on, and after a predetermined period of time, the display element irradiation Section 50 will automatically close. FIG. 1B is a block diagram showing a main part of a structure of a display device according to another embodiment of the present invention. The display device 200 shown in FIG. 1B is substantially the same as the display device 2000 of FIG. 1A except that a liquid crystal display element 10a is used instead of the display element 10. In the display device 200, the display element irradiation section 50 is located behind the liquid crystal display element 10a. The liquid crystal display element 10a includes a conductive substrate, a reflective substrate 12, and a liquid crystal layer 13, interposed between the conductive substrate u and the reflective substrate 12. 86799 -26- 1228702 The reflective substrate 12 has a reflective section 14 for reflecting light transmitted through the conductive substrate 11 and the liquid crystal layer 13. The light emission of the display element irradiated section 50 is also transmitted through the area of the reflective substrate 12 on which the reflective section 14 is not provided, and further transmitted through the liquid crystal layer. And the conductive substrate 11 is transmitted. This light is used to display the liquid crystal display element 10a. When the surrounding environment is very dark, the CPU 4 in the control section 40 turns on the display element irradiation section 50, so that the display element irradiation section 50 illuminates the display screen with light, and the liquid crystal display element 10a is transmitting. Execution is not displayed in mode. When the surrounding environment is bright, the display element irradiation section 50 is turned off to reduce power consumption. In this case, the ambient light entering the display screen u is reflected by the reflection section 14, so that the liquid crystal display element 10a performs display in the reflection mode. Therefore, the two display modes are switched. FIG. 2 is a schematic diagram showing an exemplary display screen of the display element 10 of FIG. 1A. The display element 10 may be, for example, a color liquid crystal display element. In FIG. 2, the display screen u of the display element 10 has a plurality of pixels 12 formed with a χ direction and a γ universal matrix. Each pixel 12 has a plurality of sub-pixels arranged in the x-direction. Here, each pixel has three sub-pixels corresponding to three main colors (that is, sub-pixels 14R, 14G, and 14B). The sub-pixel 14R is set in advance as a color element R so as to express red. The sub-pixel 14G is set in advance as a color element G so as to express green (G). The sub-pixel i4B is set in advance as a color element B so as to express blue (B). The color element degrees (for example, the degree of illuminance) of the sub-pixels 14R, 14G, and 14B are respectively represented by values such as 0 to 255 (0x00 to 0xff, where the mark "⑽" represents a hexadecimal number system). If the sub-pixels 14R, 14G, and 14B respectively use 86799 -27-1228702 with any degree of illumination from 0 to 255, approximately 16,70,000,000 (= 256x256x256) colors can be displayed. Examples of the head unit 10 include a conductive liquid crystal display element, which is mainly used in personal electronic devices, and reflective or rear projection type liquid crystal display elements. Display elements are not limited to color display elements. As the display element 10, any color display device having a plurality of pixels arranged in the X X and γ directions (for example, a χγ matrix display device) can be used. The number of sub-pixels included in a single pixel 12 is not limited to 3 (three main colors). The single pixel 12 may include a plurality of sub-pixels arranged in a predetermined direction. For example, when N color elements are used to represent colors, a single pixel 12 may include N sub-pixels. The arrangement order of the sub-pixels 14R, 14G, and 14B is not limited to that shown in FIG. 2. For example, in the X direction, the order of B, (^, and R may be used instead of the order of R, ^, and β. The arrangement direction of the sub-pixels 14R, 14G, and 14B is not limited to the direction (direction) shown in FIG. 2 On the other hand, the sub-pixels The pixels 14R, 14G, and 14B may be arranged in the Υ direction. A color element applicable to the present invention is not limited to red (r), green (G), and () such as monitor green (c), yellow (Y), and red purple (M ) Can also be used as a color element. The figure is ~, a diagram showing a 32lb positive pattern table, which is an example of a correction pattern table 32b stored in FIG. 1A, auxiliary, and body 30. In the following In the explanation, the flow of displaying characters or graphics on the display screen 11 of the display element 10 will be described. 86799 -28- 1228702 By storing the correction pattern table 321b of FIG. 3 in 30 (FIG. 1A), It is easy to change the illuminance of the color elements of the sub-pixels). In the auxiliary memory element element degree (color control section 40, "0" (black) is assigned to the color element degree (illumination degree) of the sub-pixel corresponding to the basic part of the character or figure.), And the control section 40 assigns The degree of color elements from "illumination degree 73", "illumination degree 182", and "illumination degree 219" to the subpixels, and adjacent to the subpixels corresponding to the basic part of the "shape," according to the correction pattern table 32b 'starting from the basic part Set in order from near to far. The control section 40 assigns "Illumination Level 255" to the color element of the sub-pixel corresponding to the character or graphic background. It should be noted that the adjacent sub-pixels are located at The sub-pixels in the direction or square (in the horizontal direction) are relative to the sub-pixels of the basic part and within a distance equal to the length of the correction pattern, where the distance is from the sub-pixels of the basic part to the neighboring pixels Defined by the number of sub-pixels calculated in the X or -X direction. When the sub-pixels are arranged in the γ direction of the pixel, the adjacent sub-pixels are located in the Υ direction or -Υ direction (vertical direction) )on Relative to the sub-pixels of the basic part and within a distance equal to the length of the correction pattern, where the distance is the number of sub-pixels calculated in the γ or -Υ direction from the sub-pixels of the basic part to the neighboring pixels Therefore, the weight pattern table 32b is used to set the color element degree (knowledge, degree) of the sub-pixels in the adjacent parts arranged near the sub-pixels relative to the basic part of the character or figure. A copy contains at least one sub-pixel. The degree of color elements adjacent to the sub-pixels in Shao Fen is defined by the distance from the sub-pixel corresponding to the basic part of the word 7C or the figure. For example, characters 86799 -29-1228702 or graphics The degree of pigmentation of the sub-pixels in the adjacent part of the pixel is designed to increase uniformly as the distance from the sub-70 or the basic part of the graphic increases. In an exemplary gradual increase, # are near the color of the sub-pixel The element levels 1 to 3 are set to the correction pattern 砉 ^ 9] k in Fig. 3, and the mouthpiece table 3211) of "illumination degree 73", "illumination degree 182", and "illumination degree 219". Here ’s a neighboring subpixel! It is the sub-pixel closest to the sub-pixel in the adjacent part. The adjacent sub-pixel 2 is the second sub-pixel that is close to the basic part of the sub-pixel. The adjacent sub-pixel 3 is the third sub-pixel that is close to the basic sub-pixel. In the correction pattern table 321b of FIG. 3, the sub-pixels 1 to 3 in the adjacent portion have the same setting of the degree of the color element (the degree of illumination) regardless of the color elements R, G, and B. But 'can provide different set illumination levels for each color element. For example, "in consideration of the characteristics of each color element R and the display element of the display element", the degree of illumination of the color element can be appropriately set. In addition, in the correction pattern table 321b of FIG. 3, three adjacent sub-pixels (adjacent sub-pixels 1 to 3) are provided for the sub-pixels corresponding to the basic part of the character or figure. Alas, the invention is not limited to this. For example, there may be four adjacent sub-pixels for the sub-pixels corresponding to the basic part. When the display attribute of the character or figure is "normal display", the correction pattern table 32lb of 3 is used. As used herein, the term "normal display" is used, and the button 7JT is white and the characters and graphics are displayed in black. However, the present invention is not limited to this. The display property of characters or graphics can be "reverse display". As used herein, the same "reverse display" means a display with a black background and characters and graphics 86799 -30-1228702 displayed in white. When the display attribute of a character or figure is Γ reverse display J 螭 不 ", the arrangement of the color elements corresponding to the degree of the color elements of the correction pattern table 321b is J ..., and the degree can be the color elements R and G. And B in reverse. It should be noted that the display properties of characters or graphics refer to the combination of the color of the background of the characters or graphics and the color of the characters or graphics. Characters or graphics can be displayed with any display attribute by the correction pattern table 32b provided by Jiang and Jitiantu. FIG. 4 is a chart showing a correction pattern table 32213,

The saliva table is another example of the calibration pattern table 32b stored in the auxiliary memory element 30 of FIG. 1A. When the display element irradiation section 50 (eg, backlight) is on, the correction pattern table 322b used. When the display element irradiation section 50 (for example, the backlight) is on, the CPU 41 of the control section 40 reads the correction pattern table ^ 表 from the auxiliary memory element 30 to the main memory 42. The degree of the color element of the sub-pixel corresponding to the basic part of the character or figure is set to "illuminance degree 0". The degree of color of the adjacent sub-pixel ㈣3 in the adjacent portion of the character or figure is set to the value shown below based on the correction pattern table 322b. For the color element ruler and the color element G, the sub-pixels adjacent to Shao Fen are set in the order of “illumination degree 40”, “illumination degree 12”, and “illumination degree 200” from the basic part in order from near to far. For the color element B, the sub-pixels of the adjacent part are set in the order of “illumination degree 30”, “illumination degree 110”, and “illumination degree 190” from the basic part in order from near to far. For the color element r, g * b, the degree of the color element of the sub-pixel in the character or graphic background is set to "illumination level 255" ° 86799 -31-1228702 Figure 5 is a chart showing the correction pattern table 323b, which is Another example of the calibration pattern table 32b stored in the auxiliary memory element 30 of FIG. When the display element irradiation section 50 (for example, the backlight) is turned off, the correction pattern table 323b used. When the display element irradiation section 50 (for example, the backlight) is turned off, the CPU 41 of the control section 40 reads the correction pattern table from the auxiliary memory element 30 to the main memory 42. The degree of the color element of the sub-pixel corresponding to the basic part of the character or figure is set to "illuminance degree 0". The degree of color elements adjacent to the sub-pixels 1 to 3 in the adjacent portion of the character or figure is set to the values shown below based on the correction pattern table 323b. For the color element r and the color element G, the sub-pixels of the adjacent parts are set in the order of "illumination level 100", "illumination level 16", and "illumination level 220" in order from the basic part from near to far. For the color element B, the sub-pixels of the adjacent part are sequentially set from the basic part to the "illumination degree 90", "illumination degree 150", and "illumination degree 210" in this order. For color elements R, G, and b, the color element level of the sub-pixels in the character or graphic background is set to "illuminance level 255". Comparing the correction pattern table 322b of FIG. 4 with the correction pattern table 323b of FIG. 5, the basic part and background part of the character or figure have the same degree of illumination, and the adjacent subpixels in the adjacent part of the character or figure 1 to 3 have different values. The degree of illumination provided by the correction pattern table 322b (FIG. 4) is lower than the degree of corresponding illumination provided by the correction pattern table 323b (FIG. 5). Therefore, by reducing the degree of illumination (toward r 0 ″ (black)) when the backlight is turned on, the apparent tf of the neighboring sub-pixels 1 to 3 is closer to black, so that the lines of characters or graphics look 86799 -32-1228702 The car / wooden can prevent the appearance thickness of the characters or graphics from changing. 0 It should be noted that in the correction pattern table 322b of FIG. 4 and the correction pattern table of FIG. 5, there are illuminances of adjacent subpixels 1 to 3. The degree is corrected. However, the present invention is not limited to this. In the present invention, at least one of the illuminance degree of the basic portion and the illuminance degree of the adjacent wound is corrected. As far as the right pattern table 322b (FIG. 4) and the correction pattern table 323b (FIG. 5) are concerned, the backlight like example is generally switched on or off. If the front light or side light is switched on / off, a similar correction pattern table can be provided. FIG. 6 is a diagram showing a correction pattern table 32, which is another example of the correction pattern table 32b stored in the auxiliary memory element 3G of FIG. When the light intensity of the display element irradiated section 50 (for example, the backlight) is the highest, the positive pattern table 324b (hereinafter referred to as degree 4) is used. When the light intensity of the display element illuminating section 50 (e.g., backlight) is at degree 4, the CPU 41 of the control section 40 reads the calibration table 324b from the auxiliary memory element 30 to the main memory 42. The degree of the color element of the sub-pixel corresponding to the basic part of the character or figure is set to "illuminance degree q". The degree of the color element of the adjacent sub-pixel ⑻ in the adjacent portion of the character or figure is set to the value shown below according to the correction pattern table 324b. The basic components of the sub-pixels of the neighboring pixels are sequentially set to "illuminance level 40", "illuminance level 12", and "illuminance level 200" in order from near to far. The degree of the color element of the sub-pixel in the background of the character or figure is set to "Illumination Level 255".

This table is stored in FIG. 1A and FIG. 7 is a diagram showing a correction pattern table 325b. 86799 -33-! 228702 Another example of the weighting pattern table 3 2 b of the auxiliary body element 30. When the light intensity of the display element illuminated section 50 (for example, the backlight) is the next highest, the correction pattern table 325b (hereinafter referred to as degree 3) is used. When the light intensity of the display element irradiating section 50 (for example, the backlight) is at the degree 3, the CPU 41 of the control section 40 reads the correction pattern table 325b from the auxiliary memory element 30 to the main memory 42. The degree of the color element of the sub-pixel corresponding to the basic part of the character or figure is set to "illuminance degree 0". The color element levels of the adjacent sub-pixels 1 to 3 in the adjacent portions of the characters or graphics are set to the values shown below according to the correction pattern table 325b. For the color element ruler and color element G, the sub-pixels of the adjacent parts are set from "basic part" to "lightness level 50", "lightness level 13o", and "lightness level 205" in order from near to far. For the color element B, the sub-pixels of the adjacent part are sequentially set to "illuminance degree 45", "illuminance degree 125", and "illumination degree 205" in order from near to far from the basic part. For the color elements r, g, and b, the degree of the color element of the sub-pixel in the character or graphic background is set to "illuminance degree 255". FIG. 8 is a diagram showing a correction pattern table 326b, which is another example of the correction pattern table 32b stored in the auxiliary memory element 30 of FIG. When the light intensity of the display element illuminated section 50 (eg, backlight) is the next highest, use the positive pattern table 326b (hereinafter referred to as the degree. When the light intensity of the display element illuminated section 50 (for example, the backlight) is located at At the level 2, the CPU 41 in the control section 40 reads the correction pattern table 326b from the auxiliary memory element 30 to the main memory 42. The color of the sub-pixel corresponding to the basic part of the character or figure is set as the element level of the element. "Illumination degree Q". The color element levels of the adjacent sub-pixels 1 to 3 in the characters 86799 -34-1228702 or the adjacent parts of the figure are set to the values shown below according to the correction pattern table 3 2 6 b For the color element r and the color element G, the sub-pixels of the adjacent part are sequentially set from the basic part to the “illumination degree 60”, “illumination degree 丨 40”, and “illumination degree 210” in this order. For the color element B, the sub-pixels of the adjacent part are set in the order of “illumination degree 50”, “illumination degree 13 0”, and “illumination degree 21 0” from the basic part in order from near to far. For the color element r , 〇, and b, character or graphic background The color element level of the sub-pixel is set to "illumination level 2 5 5". Fig. 9 is a chart showing a weight pattern table 327b, which is another of the correction pattern table 32b stored in the auxiliary memory element 30 of Fig. Ja Example. When the light intensity of the display element illuminated section 50 (for example, the backlight) is the lowest, use the correction pattern table 327b (hereinafter referred to as degree 丨). When the display element illuminated section 50 (for example, the backlight) of the light intensity When it is at level 1, the CPU 41 in the control section 40 reads the correction pattern table 327b from the auxiliary memory element 30 to the main memory 42. The degree of the color element of the sub-pixel corresponding to the basic part of the character or figure is set "Illumination degree 0". The degree of the color elements adjacent to the sub-pixels 3 to 3 in the adjacent part of the character or figure is set to the values shown below according to the correction pattern table 327b. For the color element ruler and color element G The sub-pixels of the adjacent part are set from "basic part" to "illumination degree 70", "illumination degree 15o", and "illumination degree 2 1 5" in order from the basic part. For the color element B, the neighborhood The sub-pixels in the near part are sequentially set to "illumination degree 5 5", "illumination degree 135", and "illumination degree 215" in order from near to far from the basic hardening. For the color elements R, ^, and 6, the word 86799 -35- 1228702 The degree of the color element of the sub-pixels in the scene of the element or figure a is set to "Illumination degree 255". Comparing the correction pattern tables 324b to 3 27b of Fig. 6 to Fig. 9, the basic part of the character or figure Has the same degree of illumination as the background part, and neighboring sub-pixels 1 to 3 in adjacent parts of characters or graphics have different values. When the light intensity of the backlight increases, that is, when the backlight becomes brighter, The degree of illumination is reduced. By reducing the degree of illuminance (toward "0" (black)) when the light intensity of the backlight is large, the display of adjacent subpixels 丨 to 3 is closer to black, so that the lines of characters or graphics look darker, that is, thicker. Therefore, a change in the appearance thickness of a character or a line in the figure can be avoided. In addition, comparing the correction pattern tables 324b to 327b of Figs. 6 to 9, when the light intensity of the backlight decreases, that is, when the backlight becomes darker, the blue color increases. Therefore, the illuminance of the color element B is set lower than that of the color element R and the color element G. As for the correction pattern tables 3241) to 327b of Figs. 6 to 9, the light intensity of the backlight is set to have four degrees (that is, degrees 1 to 4). However, the present invention is not limited to this. When the light intensity of the backlight has N levels (N is a natural number of 2 or more), it is necessary to provide N correction pattern tables corresponding to individual levels. It is assumed that the blue color increases with the increase of the backlight light intensity, and the color element degree (/ ¾ degree degree) is set to provide the correction pattern of Figs. 6 to 9 for use in Tables 3 24b to 3 27b. However, the present invention is not limited to this. Red or green will also increase depending on the characteristics of the display element. In this case, the degree of the color element is set so that a consistent color can be displayed according to the characteristics of the display element. -36- 86799 1228702 Tuwan; Figures 6 to 9 are shown in Figures 32 to 32. The light intensity of the backlight can be controlled as an example. The light intensity of the front light or side light can be controlled according to a similar correction pattern table. Suffering / Wang Si, in the correction pattern tables 32 to 327b of Figs. 6 to 9, only the illuminance levels 1 to 3 of the neighboring subpixels are corrected. However, the present invention is not limited to this: one of the degree of illumination of at least a substantial portion of the towel ' and the degree of illumination of adjacent portions are corrected in the present invention. In the display device 1 '' set in this manner according to a specific embodiment of the present invention, the CPU 41 of the control area & 40 executes a predetermined character / graphic display program 31. According to the character / graphic display program 31, μ ”, [] If 'irrespective of whether the display element irradiation section 50 is turned on or off, the private & & k noise is reduced, and the characters and / are suppressed Or the change in the line appearance thickness of graphics or graphics. 主 〇 乂. Therefore, characters and / or graphics can be displayed with high definition. The character / graphic display control performed by the character / graphic display program 31 will be described below. Method. Figure 10 is a flowchart of the character / graphic Gu Gu & bucket ... private 31, the program is executed by the control section 40. ^ As shown in Figure 10, in step 1 in /% S101, enter the display On the display element, display information related to the character map and one-time opening y. In this case, such as 'character or graphic identification code toast', the size of the spear is input through the input element 20, and then In step S 10 02, take the place τ native —-, the pickup corresponds to the input of the identification code and the size of the element or the basic part of the graphic. Μ 刀 贝 枓, and temporarily stored in the main memory Here, the relevant information about the base is called basic data. The basic part of the data can be the basis for defining the characters or graphics in the sub-pixel; 86799 -37-1228702 bitmap data. The basic part of the data ^ pixels. The dots correspond to individual sub auxiliary memory elements 30. The character / basic part data is obtained by, for example, from the graphic data 32a. On the other hand, as disclosed in Japanese Open Publication No. 2002-49366, basic data can be generated from materials representing the shape of pixel characters or graphics. ^ On the other hand, as disclosed in Japanese Open Publication No. 20001_1〇725, the fubon part ^ can be sent from the character or graphic frame of the pointer or the graphic outside, or the pointer or Graphic skeleton shape skeleton data generated. In step S103, each point constituting the basic part of the data is associated with a sub-pixel of the display screen u (FIG. 2) of the display element 10. This is done by taking into account the position of the characters displayed on the display element 10 display ". For example, when a character is displayed in the upper left corner of the display screen i, the points constituting the basic part of the data in the upper left corner are associated with the sub-pixels in the upper left corner of the display screen 11. In step S104, it is determined whether the display element irradiating section 50 (for example, the backlight) is on or off. When the display element irradiating section 50 (for example, the backlight) is on, that is, the decision result in the step S104 is When YES, the program jumps to step S105. When the display element irradiation section 50 (for example, the backlight) is turned off, that is, when the decision result in step S104 is NO, the program jumps to step S106. In step S105 (the display element irradiation section 50 (for example, the backlight) is on) 86799 -38-1228702, the correction pattern 322b is selected from the data 32 stored in the auxiliary memory element 30 (Fig. 4). Illuminance of subpixels corresponding to the basic part of a character or figure, illumination of subpixels arranged in an adjacent part near the basic part, and backlight corresponding to the character or figure # + # / J 月 尤 的The illuminance of the sub-pixel is set to a numerical value according to the selected correction pattern table 322b. At step SH) 6 (display element irradiated section 50 (for example, backlight) is off), a correction pattern table 323b (FIG. 5) is selected from the data 32 stored in the auxiliary memory element 30. FIG. 5 corresponds to a character or The illuminance of the subpixels in the basic part of the graphic, the illuminance of the subpixels arranged in the adjacent part near the basic part, and the illuminance of the subpixel corresponding to the character or the backlight of the graphic are based on the selected correction pattern The table 323b is set to a numerical value. After step S105 or step S1, the brightness data indicating the illuminance of each of the plurality of sub-pixels is transferred to the display element 10 in step S107. The display element 10 displays the illuminance of the sub-pixels that are torn , Is controlled according to the brightness data, so characters or graphics are displayed on the display screen 11. According to the above character / graphic display control method, when the degree of illumination when the backlight is on is lower than the degree of illumination when the backlight is off, the characters are displayed Or the graphic has darker lines. The line width of characters or graphics displayed with 'appears to be thicker. Due to Λ, the backlight can be suppressed from switching between on and off The change in the thickness of the appearance of the line where the word is or the figure y. 纟 When the backlight is on or off, according to the characteristics of the liquid crystal display element, the illumination level setting of color element B is set to low ^ color element R and color element The illuminance level of G can thereby suppress the noise of the color signal. In the display device set in this way in the specific embodiment of the present invention, the CPU 41 controlling the 86799 -39-1228702 control section 40 is configured as shown below. One method executes the character / graphic display program 31. Even if the light emitting intensity of the display element irradiated section 50 is irradiated to the display screen 11 ^, the color signal noise can still be reduced, and the line appearance of the characters and / or graphics can be suppressed Changes in thickness. Therefore, characters and / or graphics can be displayed in high definition. The character / graphic display control method performed by the character / graphic display program 31 will be described below. Fig. 11 is a character / graphic display program 31 (FIG. 1A) is another flow chart, the program is executed by the control section 40. As shown in FIG. 11, in step 8201, enter the word S or graphics on the display screen 11 of the display element 10 Related information Step C is performed in a manner similar to FIG. 10, step s 1 ο 1. / Then, in step S202, basic data of characters or graphics corresponding to the input identification code and size are obtained, and temporarily stored in the main memory. _. Step S202 is performed in a manner similar to step 10 in FIG. 10. In step S203, each point constituting the basic part of the data is related to the sub-pixel of the display element _display curtain U (FIG. 2). The step coffee is performed in a similar manner to step S103 of Fig. 10. In step S204, the final trend j-the brightness (irradiation level) of the illumination section 50 (for example, the backlight) is illuminated by the husband and wife member. Here is specific In the embodiment, the display element irradiating section 50 has four degrees of party degree (irradiation degree), that is, degrees 丨 (lowest) to degrees 4 (highest). You can detect the currently selected degree according to the number of fatal and negative privacy choices that indicate the selected degree. When the backlight's exposure level is 0 per degree / 4 for Cheng Lu 4, the program jumps to step S205. When the backlight irradiation process is again private, the program jumps to step 86799 1228702 5206 ° When the backlight irradiation process is wild, the program jumps to step 5207 ° When the degree of privacy is 1, the program jumps to step 5208 ° In vsolation S205 (_ the obstruction of the illumination section 50 (for example, the backlight) the brightness (illumination degree) is degree 4), from the stored in The correction pattern table 324k Fi npb is selected from the data η of the auxiliary memory element (FIG. 6). The degree of illumination of the sub-pixels corresponding to the basic part of the character or figure, the rank A 苴, FJ in the vicinity of the basic part, and the degree of illumination of the sub-pixels corresponding to the backlight of the or pattern are based on The selected calibration pattern is set to a numerical value. ^ In step S206 (the brightness (illumination degree) of the display element irradiation section 5Q (for example, backlight) is privacy degree 3), the correction pattern table 325bnH7, 〇h is selected from the data η stored in the auxiliary memory element stream ^ (Figure 7). Corresponds to the basic part of characters or graphics

The degree of illumination of the subpixels, the arrangement A, the degree of illumination of the subpixels arranged in the adjacent part near the basic pixel, and the degree of illumination of the subpixels corresponding to the backlight and the backlight of the sub-frame or graphics, are Based on the order ρ τ η and the optional right map 325b, a value is set. In step S207 (brightness (irradiance degree 2) of the display element irradiation section% (for example, backlight)), the correction pattern table 326b (FIG. 8) is selected from the data 32 in which the auxiliary memory element 30 exists (FIG. 8). The degree of illumination of the sub-pixels of the basic part of the character or figure, that is, Gan Gan, the degree of illumination of the sub-pixels in the adjacent parts near the basic part, 5d, and the corresponding to the unit or figure The degree of illumination of the sub-pixels of the backlight is set to a numerical value based on the comprehension ρ τ +? Image & right pattern table 326b. In step S 2 0 8 (display element zhaosui p, vulture ... shooting section 5 〇 (for example, backlight) brightness (irradiation level) is degree 1), the correction pattern table 327b (Fig. 9) is selected from the data 32 in which the auxiliary memory element 30 is stored in the left striker (Fig. 9). ^} Corresponds to 竽Element or graphic basic part 86799 -41-1228702 subpixel illuminance, subpixels arranged in adjacent parts near the basic part, and illuminance of the subpixel corresponding to the character or graphic backlight , Set according to the selected correction pattern table 327b After step S205, S206, S207, or step S208, the brightness data indicating the illuminance of each of the plurality of sub-pixels is transferred to the frequency display element 10 in step S209. According to the party data, the display element i The degree of privacy of the display screen 1 i is controlled in the sub-pixels so that characters or graphics are displayed on the display screen 11. According to the character / graphic display control method, when the backlight exposure is greater (brighter ) Will show a lower level of illumination than when the backlight is illuminated (darker). Therefore, 'displayed characters or graphics have darker lines. Therefore, the line width of the displayed characters or graphics seems to be relatively Therefore, even if the illumination level of the backlight is changed, the thickness of the characters or graphics can be suppressed. When the illumination level of the backlight is reduced, that is, the backlight becomes darker, blue is caused by the liquid crystal display element. Characteristics increase. Therefore, the illuminance of color element B is set lower than the illuminance of color element R and color element G. Therefore, color signal noise can be suppressed Next, a description will be given of a method of preparing a correction pattern when the display element irradiation section 50 has N irradiation degrees (degrees of partyness), where N is an integer of 3 (inclusive) or more. In the auxiliary memory element 30, When the illumination level (brightness) of the display element irradiation section 50 is the highest, and when the illumination level (brightness) of the display element irradiation section 50 is the lowest, a correction pattern table applicable to the situation is provided in advance. As for other irradiations The degree will be calculated based on these two tables to correct the 86799 -42-1228702 pattern. The calculation method will be described below. Now assume as follows. The display element irradiation section 50 has 1 ^ irradiation degree (brightness degree). When the f exposure level is 1 (lowest), it corresponds to the adjacent sub-pixels of the individual color elements R, G, and B! The illuminance levels are respectively, Gminl * Bminl, and similarly, the illuminance levels of the neighboring sub-pixels 2 corresponding to the individual color elements r, 0, and b are Rmin2, Gmin2 * Bmin2, and correspondingly to the individual color elements R, The illuminance levels of G and B's neighboring subpixels 3 are Rmin3, Gmin3, and Bmin3, respectively. In addition, when the illumination level is N (highest), the illumination levels of the neighboring sub-pixels i corresponding to the individual color elements R, G, and B are Hanyou, Gmaxl, and Bmaxl. Similarly, corresponding to the individual color elements R The illuminance levels of the adjacent sub-pixels 2, 0, and ^ are Rmax2, Gmax2 * Bmax2. Similarly, the illuminance levels of the adjacent sub-pixels 3 corresponding to the individual color elements R, 〇, and B are Rmax3, Gmax3, and Bmax3 〇. When the irradiance (brightness) of the display element irradiated section 50 is%, where M 疋 is an integer greater than or equal to 丨 and less than or equal to N, the illuminance of the color element R of the neighboring sub-pixel 1 is represented by Rml The degree of illumination of the color element G adjacent to the sub-pixel i is represented by Gml, and the degree of illumination of the color element b adjacent to the sub-pixel 丨 is represented by Bm 1. The calculated values are shown below.

Rml = ((Rminl-Rmaxl) / (N-l)) x (M-l) + Rminl

Gml = ((Gminl-.Gmaxl) / (N-l)) x (M-l) + Gminl

Bml = ((Bminl-Bmaxl) / (Nl)) x (Ml) + Bminl Similarly, the illuminance of the color element R adjacent to the sub-pixel 2 is expressed by Rm2, and the illuminance of the color element G adjacent to the sub-pixel 2 is expressed by Gm2 indicates that the illuminance of the color element B adjacent to the sub-pixel 2 is represented by Bm2. The calculated values of 86799 -43 · 1228702 are shown below.

Rm2 = ((Rmxn2-Rmax2) / (N-l)) x (M-l) + Rmin2

Gm2 = ((Gmin2-Gmax2) / (N-1)) x (M-l) + Gmin2

Bm2 = ((Bmin2-Bmax2) / (N-1)) x (Ml) + Bmin2 Similarly, the illuminance of the color element R adjacent to the sub-pixel 3 is represented by Rm3, and the illuminance of the color element G adjacent to the sub-pixel 3 It is represented by Gm3, and the illuminance degree of the color element B adjacent to the sub-pixel 3 is represented by Bm3. The calculated values are shown below.

Rm3 = ((Rmin3-Rmax3) / (N-1)) x (M-l) + Rmin3

Gm3 = ((Gmin3-Gmax3) / (N-l)) x (M-l) + Gmin3

Bm3 = ((Bmin3-Bmax3) / (Nl)) x (Ml) + Bmin3 The degree of illumination of the subpixel corresponding to the basic part of the character or figure, and the degree of illumination of the subpixel corresponding to the background part, regardless of Whatever the irradiation degree (brightness) of the display element irradiation section 50 is constant. As described above, the correction pattern table for when the irradiation degree (brightness) of the display element irradiation section 50 is the highest, and the correction pattern table for when the irradiation degree (brightness) of the display element irradiation section 50 is the lowest. Are stored in the auxiliary memory element 30. The exposure level correction pattern between the highest and lowest exposure levels is obtained by calculation. Therefore, a correction pattern can be provided for any degree of exposure (degree of brightness). In the above calculation, the correction pattern (for example, the degree of illuminance) corresponding to the degree of irradiation between the highest and lowest irradiation levels is obtained by linear interpolation. However, the present invention is not limited to this. Any function depending on the characteristics of the display element 10 may be used. The above is the case of using the backlight as the display element to illuminate the segment 50. However, the present invention is not limited to this. In the present invention, for example, front light, side 86799-44-! 228702 light: similar things can be provided as display elements. In the specific embodiment described above,... Part of the illuminance level and / or the basic part of the graphics and the neighboring "change the green setting of the display screen 1 1 to 10. However, the present invention is not limited to this. The front line intensity of the edge storm 11 is added In this Qiao Ming, the character and / or degree is based on the setting of the display element 2 and the adjacent part. Item 0: The information about the viewer is set: Specifically, the display element i ——Some characters who can clearly see the character shape of the character U (for example, have cataracts). In the second one, due to the clear eyes of the user, a positive pattern suitable for this type of user can be provided. Table, and the table can be stored in the auxiliary memory element 30. This correction map table can be selected according to the input of the master 7 through the input element 20 and the user indicates whether or not. Corresponds to the basic part The pixel and the degree of w corresponding to the adjacent sub-pixels (orthogonal pattern) can be set according to the correction pattern table. In addition, the character and / or the figure of 0, 0, and the degree of illumination of the adjacent part : According to the light intensity of the display screen u and the display 10 The viewer-related information is set. According to the specific embodiment described above, the degree of the color element (illumination degree) of the sub-pixels corresponding to the basic part and the near part of the character and / or figure is based on Set it in consideration of the on / off state and the correction pattern provided by the display element irradiation section 50. For example, 'when the display element 1G has a large irradiation level', the illumination level of the sub-pixels in the adjacent part is set to Very low. In this case, the lines of characters and / or graphics are relatively deep, that is, the lines seem to be thick. Therefore, the appearance of the lines of characters and / or graphics can be avoided. 86799 -45-1228702 Thickness Therefore, by setting the illumination intensity of the sub-pixels according to the illumination intensity of the display screen (on / off state or illumination intensity), the color signal # λ can be suppressed, and the line appearance thickness of characters or graphics can be suppressed. The change causes the high-resolution display of characters and / or graphics. Therefore, unlike the conventional technology, it is not necessary to provide a sensor for detecting the intensity of light around the display element 10. Above In the specific embodiment described above, the display element can display colors. However, the present invention is not limited to this. The present invention can be applied to any display element capable of displaying gray scales. The display element can only display black and white. In the specific embodiment above The degree of illuminance of the adjacent part is corrected according to the intensity of the light illuminating the display screen or information related to the viewer of the display element. However, the present invention is not limited to this. In the present invention, the The degree of illumination of the basic part of the graphic can suppress the color signal noise, and can suppress the change in the thickness of the line appearance of characters and / or graphics, resulting in high-resolution display of characters and / or graphics. Industrial Applicability According to the present invention, the illuminance of the basic part and adjacent parts of the characters and / or graphics can be set according to the light intensity illuminating the display screen (such as the on / off state of the lighting section or the lighting of the lighting section). degree). Therefore, it is possible to provide a correction pattern that is suitable for changing the characteristics of the new member due to the on / off state of the lighted section or the change in the light level. Therefore, it is possible to suppress color signals and to suppress changes in appearance of characters and / or graphic lines caused by surrounding brightness. In addition, the k-positive pattern table is stored in the memory section. By selecting one of the correction pattern tables according to the light intensity of the illusory display glory—by =; Gen: 86799 -46- 1228702 Easily switch the correction pattern. Therefore, it is different from 4N; traditional technology does not need a sensor that senses the surrounding brightness. Furthermore, the 'characters and / or graphics may be displayed in a manner suitable for the viewer based on the information related to the viewer of the display element' (for example, the age of the viewer, the eye condition, etc.). Moreover, the correction pattern table is stored in the memory section. You can easily switch the correction pattern by selecting the correction pattern table based on the viewer's relevant information and choosing one of the two. Those skilled in the art should understand the various modifications of the present invention and can easily modify them without departing from the ethical demerits of the present invention: ^ t ^ 7 target can be connected with the spirit. Therefore, the scope of the attached patent application is not intended to be limited by the controversy in this article, Zhu Mingzhong of Two τ Red Contributions, and a broad explanation of these patent application parks should be made. [Schematic description] The diagram is a block diagram. , Showing a main part of the structure of a display device according to a specific embodiment of the present invention. The figure shows the main part of the structure of a display device according to another embodiment of the present invention. Fig. 2 is a schematic view 'showing a diagram composed of pixels to show an exemplary display screen in a component. FIG. 3 is a table showing exemplary correction patterns stored in the auxiliary rib of FIG. 4. The exemplary correction pattern table stored in FIG. 1A & auxiliary memory element is used when the lighting section is turned on. Fig. 5 is an exemplary correction map 86799 -47-1228702 stored in the auxiliary memory element of Fig. 1 and used when the lighting section is turned off. Fig. 6 is a table showing an exemplary correction map stored in the auxiliary memory element of Fig. 1A, which is used when the illumination section is at the exposure level 4. Fig. 7 is an exemplary correction pattern table stored in the auxiliary memory element of Fig. 1A, which is used when the illumination zone is at the illumination level 3. Fig. 8 is a table showing an exemplary correction pattern stored in the auxiliary memory element of Fig. 1A, which is used when the illumination section is at the illumination level 2; Fig. 9 is an exemplary correction chart showing a table stored in the auxiliary memory element of Fig. 1A, which is used when the illumination section is at the irradiation level. Fig. 10 is a flowchart of an exemplary procedure for displaying the character / graphic display program of Fig. 1A. Fig. 11 is another exemplary procedure for displaying a program with characters / graphics in a flowchart. Fig. 12 is a diagram showing the character "/" (slash) displayed by the conventional technique. The element "j" is indicated by the basic part in which the degree of color is set to a predetermined degree of illumination. FIG. 13 is a graph showing characters displayed by another conventional technique "" (slash) in which the degree of the color element in the basic portion is set to a predetermined degree of illumination (the degree of illumination G) and the degree of the color element in the adjacent portion is set to Illumination level different from basic Shaofen illumination level ("〇"). [Illustration of Symbols in the Figures] 10 100 10a Display element display LCD device 86799 -48- 1228702 11 Conductive substrate / display 12 Reflective substrate / pixel 13 Liquid crystal layer 14 Reflective segment 14B Subpixel 14G Subpixel 14R Subpixel 20 input device 200 display device 30 auxiliary memory device 31 character / graphic display program 32 data 32a character / graphic data 32b correction pattern table 40 control section 41 central processing unit 42 main memory 50 display device irradiation section 321b correction Pattern table 322b Calibration pattern table 323b Calibration pattern table 324b Calibration pattern table 86799 -49- 1228702 325b Calibration pattern table 326b Calibration pattern table 327b Calibration pattern table 50- 86799

Claims (1)

Repair and replace the page more 93. 9 2 4 Μ Η] I22Hl9263 patent application Chinese patent application scope replacement (September 1993) Pick up and apply for patent garden: 1. A display device, including: a display element, including A display screen displaying at least one of characters and graphics, wherein at least one of each of the characters and graphics includes a basic part and an adjacent part arranged near the basic part; and a control for controlling the display element Section, in which the control section sets the illuminance of the basic shade and the illuminance of the neighboring part according to the light intensity of the display screen, and the control section controls the display element. Set the illuminance level and the set illuminance level of the neighboring part to cause at least one of the character and the figure to be displayed on the display screen. 2. The display device according to item 1 of the scope of patent application, wherein the control section is based on at least one of the illuminance of the basic part and the illuminance of the adjacent part according to the light intensity of the side curtain. By. 3. The display device according to item 1 of the scope of patent application, wherein the control section sets the illuminance of the adjacent portion so that the illuminance of the adjacent portion changes stepwise from near to far from the basic portion. . 4. The display device according to item 1 of the scope of patent application, wherein the control section is based on the illuminance of a plurality of color elements, and sets the illuminance of the basic part and the illuminance of the adjacent part. 5. The display device according to item 1 of the patent application scope, wherein the display screen includes a plurality of pixels; each of the plurality of pixels includes a plurality of sub-pixels; and 86799-930924.doc each of the plurality of sub-pixels and a plurality of color elements One related. 6. For a display device according to item 5 of the patent application, wherein the basic portion and the adjacent portion are assigned the plurality of sub-pixels. 7. The display device according to item 1 of the scope of patent application, further comprising: an illumination section illuminating the display screen with light, wherein the control section sets the basic according to the intensity of light emitted from the illumination section to the display screen. The degree of illumination of the part and the degree of illumination of the neighboring part. 8. The display device according to item 7 in the scope of the patent application, wherein the control section sets the illuminance of the basic part and the illuminance of the adjacent part according to the on or off state of the illumination section. 9. The display device according to item 7 of the scope of patent application, wherein the control section sets the illuminance of the basic part and the adjacent part according to the light intensity of the light intensity emitted from the light-emitting section to the display screen. The degree of illumination. 1〇_ The display device according to the scope of the patent application, further comprising an illumination section for illuminating the display screen with light, wherein: the display element includes a display medium and a reflection section; and the illumination section is located in the display medium. The back; the control section switches between transmission mode and reflection mode, where the transmission mode is: when the lighting section is on, the light emitted from the lighting section is transmitted via the display medium, and the reflection mode is ... The light segment that is incident from directly in front of the display medium and transmitted through the display medium when it is closed is reflected by the reflection segment; and 86799-930924.doc 11. 11. 12. 13. 14. 15. 16 The control section sets the illuminance of the basic part and the illuminance of the neighboring part according to the transmission mode or the reflection mode. For example, the display device of claim 1 of the patent scope further includes: a fe body section for storing a plurality of correction pattern tables indicating the illuminance of the basic part and the illuminance of the adjacent part, The control section selects one of the plurality of correction pattern tables according to the light intensity illuminating the display screen, and sets the illumination degree of the basic part of the child and the illumination degree of the adjacent part according to the selected correction pattern table. . For example, the display device of item 11 of the patent scope is cleared, in which the plurality of correction pattern tables depend on the light intensity illuminating the display screen. The display device according to item 7 of the patent application, further comprising: an input section for setting the intensity of light emitted from the lighting section. For example, the display device according to the first patent application scope further includes: an input section for inputting viewer-related information related to the viewer viewing the display element. For example, the display device according to item 14 of the patent application, wherein the viewer-related Besson includes at least one of information about the age of the viewer, information about the eye condition of the viewer, and information related to the preference of the viewer. A display control method for displaying characters and graphics on the display screen. At least one of each of the characters and graphics includes a basic part and an adjacent part arranged on the basic part. Nearby, the party 86799-930924.doc includes the following steps: setting the illuminance of the basic part and the illuminance of the neighboring part according to the light intensity illuminating the display screen; and setting the illuminance using the basic part And the degree of illumination of the adjacent part, the characters and graphics are displayed on the display screen to 10,000 or 10,000. 17 • The display control method according to item 16 of the patent application scope, wherein the setting step includes correcting at least one of the illuminance of the basic part and the illuminance of the neighboring part according to the light intensity illuminating the display screen. For example, the display control method for item 16 of the scope of patent application, wherein the setting step includes setting the illuminance of the adjacent portion so that the illuminance of the adjacent portion is changed stepwise from near to far from the basic portion. 19. The display control method according to item 16 of the scope of patent application, wherein the setting step includes setting the illuminance of the basic part and the illuminance of the neighboring part based on the illuminance of a plurality of color elements. 20. The display control method according to item 16 of the patent application scope, wherein the display screen includes a plurality of pixels; each of the plurality of pixels includes a plurality of sub-pixels; and each of the plurality of sub-pixels is related to one of a plurality of color elements. 21 _ The display control method according to item 16 of the scope of patent application, further comprising the following steps: $ The intensity of the light emitted from the far-field illumination section to the display glory, wherein the step of setting the degree of illumination includes according to the light from the illumination area. Set the intensity of the light emitted to the display screen, and set the illuminance of 86799-930924.doc of the basic part and the illuminance of the adjacent part. 22. A recording medium storing a program for displaying at least one of characters and graphics on a display screen, wherein at least one of each of the characters and graphics contains a basic part and an adjacent part arranged on the basic part Nearby, the program instructs the computer to perform the following steps: set the illuminance of the basic part and the illuminance of the neighboring part according to the light intensity illuminating the display screen; and set the illuminance of the basic part and the neighboring part using the basic part At least one of the characters and graphics is set on the display screen to set the illuminance level. 23. A display device comprising: a display element including a display screen displaying at least one of a character and a figure, wherein at least one of each of the character and the figure includes a basic part and an adjacent part arranged in the The vicinity of the basic part; and a control section for controlling the display element, wherein the control section sets the illuminance of the basic component and the neighboring part according to viewer-related information related to the viewer of the display element The illuminance level of the copy, and the remote control of the control section control the element, so that at least one of the character and the figure is displayed on the display screen using the set illuminance level of the basic part and the set illuminance level of the neighboring part. 24. The display device according to item 23 of the patent application scope, wherein the control section corrects at least one of the illuminance of the basic part and the illuminance of the neighboring part according to the viewer-related information '. 86799-930924.doc 25 · If the display device of the scope of patent application No. 23, the viewer-related information includes at least one of the information about the age of the viewer, the information about the viewer's eye condition, and the information about the viewer's preference . 2 6 · If the display device according to item 23 of the scope of patent application, the control section sets the degree of illumination of the adjacent part, so that the degree of illumination of the adjacent part starts from the basic part and goes from near to far into a step式 变。 Style change. 27. The display device according to item 23 of the patent application range, wherein the control section sets the illuminance of the basic part and the illuminance of the neighboring part based on the illuminance of a plurality of color elements. 28. The display device of claim 23, wherein the display screen includes a plurality of pixels; each of the plurality of pixels includes a plurality of sub-pixels; and each of the plurality of sub-pixels is related to one of the plurality of color elements. 29. The display device according to item 28 of the patent application, wherein the basic portion and the adjacent portion are assigned the plurality of sub-pixels. 30. The display device according to item 23 of the scope of patent application, further comprising: a brother memory section for storing a plurality of correction pattern tables indicating the degree of illumination of the basic part of the child and the degree of illumination of the adjacent part Wherein, the Wei control section selects one of the plurality of weighting pattern tables according to the information related to the viewer, and sets the illumination degree of the basic shading and the illumination degree of the adjacent part according to the selected correction pattern table. 3 1. The display device according to item 23 of the scope of patent application, further comprising: an input section for inputting relevant information of the viewer. 86799-930924.doc 32. At least one of a display control method for displaying characters and graphics on a display screen, wherein at least one of each of the characters and graphics includes a basic part and an adjacent part are arranged in the The vicinity of the basic part = The method includes the following steps: Set the illumination level of the basic part and the illumination level of the neighboring part according to the viewer-related information related to the display screen viewer; and set the illumination level using the basic part And the setting of the illuminance degree of the adjacent part, at least one of the character and the figure is displayed on the display screen. 33. For the display control method of the 32nd aspect of the patent application, the setting step includes according to the relevant information of the viewer, At least one of the illuminance level of the basic portion and the illuminance level of the far-neighboring portion is corrected. 34. The display control method of item 32 in the scope of patent application, wherein the viewer-related information includes at least one of the information regarding the age of the viewer, the viewer's eyes / brothers, and the viewer's preferences. . 35. The display control method according to item 32 of the scope of patent application, wherein the setting step includes setting the illuminance of the adjacent portion so that the illuminance of the adjacent portion is stepped from near to far from the basic portion change. 36. The display control method according to item 32 of the scope of the patent application, wherein the setting step includes setting the basic illuminance of the color element and the illuminance of the neighboring portion based on the illuminance of the plurality of color elements. 37. The display control method according to item 32 of the patent application scope, wherein the display screen includes a plurality of pixels; each of the plurality of pixels includes a plurality of sub-pixels; and 86799-930924.doc each of the plurality of sub-pixels and a plurality of colors One of the elements is related. 38. The display control method according to item 32 of the scope of patent application, further comprising the following steps: Enter the relevant information of the viewer. 3 9_ — A recording medium that stores at least one of the characters and graphics on the display screen. At least one of each of the characters and graphics contains a basic part and an adjacent part arranged on the basic part. Near, the program instructs the computer to perform the following steps: Set the illuminance of the basic part and the illuminance of the neighboring part according to the viewer-related information related to the display screen viewer; The degree of illuminance and the setting of the degree of illuminance privacy of the adjacent part 'display at least one of the characters and graphics on the display screen. 86799-930924.doc